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    AI-X at Johns Hopkins University - 1 year(s) ago

    and Artificial Intelligence The Collaboration of Human AI at Johns Hopkins combines the intuition and understanding of human intelligence with the raw power of empirical AI to transform discovery.AI-X Foundry The Johns Hopkins AI-X Foundry is a university-based organization with an ambitious global vision: the intentional collaboration of human and artificial intelligence (AI), with…

    Source: ai.jhu.edu
    Categories: Cardiologists, Latest Headlines
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      NTrayanova

      Thrilled to be appointed Director of Research (Health&Medicine) of AI-X Foundry @JohnsHopkins, leading the effort to bring together human intelligence and #AI to improve the human condition. Check out leadership and initiatives @ https://t.co/1QYx1Ev0rl @HopkinsEngineer @JHUBME

  • Mashup Score: 2
    Fat infiltration in the infarcted heart as a paradigm for ventricular arrhythmias - Nature Cardiovascular Research - 2 year(s) ago

    In a combined computational and multi-center clinical study to investigate the effects of adipose fat tissue infiltration on ventricular arrhythmias, Sung et al. show that infiltrating adipose tissue, as opposed to scar, is the main cause of infarcted-related ventricular arrhythmias by slowing cardiac conduction in critical sites.

    Source: Nature
    Categories: Cardiologists, Latest Headlines
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      NTrayanova

      The study itself showcases what a collaborative clinical and computational research can achieve! The paper is here: https://t.co/Aj1aIaJc88. @JHUBME @JHU_ADVANCE @JohnsHopkins @deniswirtz @hopkinsheart @PennCardiology #CardioTwitter Gorgeous artwork by @EricSung9 https://t.co/L9VxC8KMPG

  • Mashup Score: 9
    Fat infiltration in the infarcted heart as a paradigm for ventricular arrhythmias - Nature Cardiovascular Research - 2 year(s) ago

    In a combined computational and multi-center clinical study to investigate the effects of adipose fat tissue infiltration on ventricular arrhythmias, Sung et al. show that infiltrating adipose tissue, as opposed to scar, is the main cause of infarcted-related ventricular arrhythmias by slowing cardiac conduction in critical sites.

    Source: Nature
    Categories: Cardiologists, Latest Headlines
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      NTrayanova

      Congratulations @EricSung9! Beautiful image and a great reflection of the content in the paper! https://t.co/Aj1aIar2U0 @trayanovalab https://t.co/0ySOh3MSQI

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      NTrayanova

      Excited, #EPpeeps! Our paper https://t.co/Aj1aIar2U0 in @NatureCVR made the October cover! Figure shows adiposity and scar in post-infarction patient heart model and the arrhythmia. Background: electrograms acquired during ablation. @JonChrispinMD @Dr_Nazarian_EP @trayanovalab https://t.co/H9qTBvy4jj

  • Mashup Score: 0
    Fat infiltration in the infarcted heart as a paradigm for ventricular arrhythmias - Nature Cardiovascular Research - 2 year(s) ago

    In a combined computational and multi-center clinical study to investigate the effects of adipose fat tissue infiltration on ventricular arrhythmias, Sung et al. show that infiltrating adipose tissue, as opposed to scar, is the main cause of infarcted-related ventricular arrhythmias by slowing cardiac conduction in critical sites.

    Source: Nature
    Categories: Cardiologists, Latest Headlines
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    • Profile photo of NTrayanova
      NTrayanova

      We reveal insights into the previously under appreciated role of penetrating adipose tissue in arrhythmias in post-infarction patients https://t.co/Aj1aIaJc88 #EPpeeps #Cardiotwitter @JonChrispinMD @Dr_Nazarian_EP @JHUBME @JohnsHopkins @trayanovalab https://t.co/soackFhouv

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